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市場調査レポート

風力タービンローターブレードの世界市場の分析

Analyzing the Global Market for Wind Turbine Rotor Blades

発行 Aruvian's R'search 商品コード 340414
出版日 ページ情報 英文 210 Pages
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風力タービンローターブレードの世界市場の分析 Analyzing the Global Market for Wind Turbine Rotor Blades
出版日: 2015年09月01日 ページ情報: 英文 210 Pages
概要

風力タービンローターブレードの市場は、風力発電のためのタービン需要の拡大とともに発展を遂げています。2014年の風力タービンローターブレードの市場では、アジア太平洋地域が総設置数で約55%のシェアを占め、中心的役割を果たしました。同地域は今後も2020年にかけてもっとも魅力的な市場となる見通しです。また、南米や中東・アフリカ地域も高い成長が確実視されています。

当レポートでは、世界の風力タービンローターブレードの市場について調査し、風力発電技術の概要、世界の風力エネルギー産業および風力タービン産業の動向、風力タービンローターブレードの概要、製造技術、市場規模、競合環境、主要企業のプロファイルなどをまとめています。

エグゼクティブサマリー

セクション1:風力エネルギーの概要

  • イントロダクション:風力発電
  • 風力発電技術
    • イントロダクション
    • タービンのタイプ
    • 空中風力タービン
    • 風力タービンの出力
    • 風力タービンのコスト
    • タービンサイズ
    • 効率因子
    • オフショア 風力タービン
    • タービンの寿命
    • グローバル化の風力タービン市場への影響
  • 世界の風力エネルギー産業の分析
    • 市場プロファイル
    • 市場統計
    • 市場分析:地域別
      • アフリカ・中東
      • アジア
      • 欧州
      • 北米
      • 中南米
      • 太平洋地域
    • EUの風力発電
      • 概要
      • オフショア風力市場
      • 市場動向
      • 法規制上の枠組み
    • 世界のオフショア風力市場
      • 概要
      • アジア
      • 欧州
      • 米国
  • ■セクション2:世界の風力タービン産業
  • イントロダクション:風力タービン
    • 風力タービンの構成要素
    • 風力タービンの世界の導入数
    • 市場規模
    • タービンコスト
    • 平均タービンサイズ
    • 市場シェア

セクション3:世界の風力タービンローターブレード市場の分析

  • イントロダクション
    • ローターブレードの概要
    • ローターブレードの製造
  • 風力タービンローターブレードの市場
    • 産業概要
    • 産業規模
    • ローターブレードの製造
      • 年間総製造量
      • 独立系:製造業者別
      • 社内製造:製造業者別
    • 風力タービンローターブレードのコスト
  • 産業動向
  • 競合状況

セクション4:風力タービンローターブレードの主要製造業者の分析

  • Acciona SA
  • China Ming Yang Wind Power Group Ltd
  • Dongfang Electric Corporation Limited
  • Enercon
  • Gamesa Corporacion Tecnologica SA
  • LM Wind Power
  • Nordex SE
  • Senvion SE
  • Siemens AG
  • Suzlon Energy Limited
  • Vestas Wind Systems A/S
  • CSIC (Chongqing) Haizhuang Windpower Equipment Co., Ltd. (CSIC)
  • Euros GmbH
  • Guodian United Power Technology Co., Ltd.
  • Inox Wind
  • Lianyungang Zhongfu Lianzhong Composites Group Co., Ltd.

セクション5:総論

  • 付録
  • 用語

図表

目次

A wind turbine rotor blade is a fundamental constituent of a wind turbine. The rotor forms the central base of the turbine and harbors multiple rotor blades attached to a hub. The rotor blades serves as a motor in the turbine and extract energy by capturing wind energy and transforming it into the rotation of the hub. The most popular rotor consists of a horizontal axis with three blades with a diameter ranging from 37-128 meters.

The wind turbine rotor blade market is developing in sync with the growing demand for turbines used to produce wind energy. The global wind energy market has been developing gradually due to a rise in energy demand, raising concerns over environmental impact of power generation through fossil fuel as a result of the Production Tax Credit (PTC) policy expiring in the United States and low investments in Europe respectively.

China leads the wind energy market primarily due to government impetus on wind power generation. Other Asia-Pacific countries like India, Japan and Australia are also portraying significant growth trends in wind power generation powered by government initiatives. The Middle East and Africa remain at a very nascent phase of the wind energy market and presently bear the lowest market share among the regions.

The key market players in the wind turbine rotor blade market are Siemens AG (Germany), Vestas Wind System AS (Denmark), Suzlon Energy Limited (India), Acciona S.A. (Spain), and Gamesa Corporacion Tecnologica (Spain).

In 2014, the market for wind turbine rotor blades was ruled by Asia-Pacific, which accounted for nearly 55% of the total installed blades in the world. The region is expected to remain the most attractive market across 2020, even as South America along with the Middle East and Africa are geared up to witness promising growth rates.

Despite the costs for generating wind power declining over the years, the capital costs required in establishing a functional wind power project still remain high. Apart from construction and installation of wind turbines, costs may also rise, depending on the load factor and capacity factor of the turbines, which differ according to the location of the project and the quality of wind resource.

Aruvian Research analyzes the global market for wind turbine rotor blades in this research offering, Analyzing the Global Market for Wind Turbine Rotor Blades. Divided into 5 sections, this report is a comprehensive insight into the market for wind turbine rotor blades.

Section 1 of the report is an overview of wind energy and an overview of the global wind energy industry. We look at how wind turbines work, wind power technology, power generation from wind, types of turbines, airborne wind turbine, wind turbine's power output and many other factors are analyzed.

The global wind energy industry is analyzed through a market profile, market statistics, market analysis by regions, wind power in the European Union and a look at the global offshore wind market.

Section 2 of the report analyzes the global wind turbine industry. Introduction to wind turbines looks at components of wind turbines, global installations of wind turbines, market size, cost of turbines, average turbine size and market share.

Section 3 analyzes the global market for wind turbine rotor blades and provides an overview of rotor blades and the manufacturing process.

The global market for wind turbine rotor blades is analyzed through an industry overview, industry size, production of roller blades by overall yearly production, independent production of rotor blades and in-house production of rotor blades by manufacturers. Cost of wind turbine rotor blades is also analyzed.

Industry trends and industry competition are also analyzed.

Major manufacturers of wind turbine rotor blades are analyzed through a corporate profile, business segment analysis, financial analysis and a SWOT analysis. The report analyzes 16 major manufacturers of wind turbine rotor blades.

Table of Contents

Executive Summary

Section 1: Overview of Wind Energy

A. Introduction to Wind Power

  • A.1 How do Wind Turbines Work?
  • A.2 Wind Power Technology
  • A.3 Power Generation from Wind

B. Wind Power Technology

  • B.1 Introduction
  • B.2 Types of Turbines
  • B.3 Airborne Wind Turbine
  • B.4 Wind Turbine's Power Output
  • B.5 Cost of a Wind Turbine
  • B.6 Turbine Size
  • B.7 Efficiency Factors
  • B.8 Offshore Wind Turbines
  • B.9 Lifetime of a Turbine
  • B.10 Globalization Impacting the Wind Turbine Market

C. Analyzing the Global Wind Energy Industry

  • C.1 Market Profile
  • C.2 Market Statistics
  • C.3 Market Analysis by Region
    • C.3.1 Africa & the Middle East
    • C.3.2 Asia
    • C.3.3 Europe
    • C.3.4 North America
    • C.3.5 South & Latin America
    • C.3.6 Pacific Region
  • C.4 Wind Power in the European Union (EU)
    • C.4.1 Overview
    • C.4.2 Offshore Wind Market
    • C.4.3 Market Trends
    • C.4.4 Regulatory Framework
  • C.5 Global Offshore Wind Market
    • C.5.1 Overview
    • C.5.2 Asia
    • C.5.3 Europe
    • C.5.4 United States

Section 2: Global Wind Turbine Industry

A. Introduction to Wind Turbines

  • A.1 Components of Wind Turbines
  • A.2 Global Installations of Wind Turbines
  • A.3 Market Size
  • A.4 Cost of Turbines
  • A.5 Average Turbine Size
  • A.6 Market Share

Section 3: Analyzing the Global Market for Wind Turbine Rotor Blades

A. Introduction

  • A.1 Overview of Rotor Blades
  • A.2 Manufacturing of Rotor Blades

B. Market for Wind Turbine Rotor Blades

  • B.1 Industry Overview
  • B.2 Industry Size
  • B.3 Production of Rotor Blades
    • B.3.1 Overall Yearly Production
    • B.3.2 Independent Production of Rotor Blades by Manufacturers
    • B.3.3 In-house Production of Rotor Blades by Manufacturers
  • B.4 Cost of Wind Turbine Rotor Blades

C. Industry Trends

D. Competition in the Industry

Section 4: Analysis of Major Manufacturers of Wind Turbine Rotor Blades

A. Acciona SA

  • A.1 Corporate Profile
  • A.2 Business Segment Analysis
  • A.3 Financial Analysis
  • A.4 SWOT Analysis

B. China Ming Yang Wind Power Group Ltd

  • B.1 Corporate Profile
  • B.2 Business Segment Analysis
  • B.3 Financial Analysis
  • B.4 SWOT Analysis

C. Dongfang Electric Corporation Limited

  • C.1 Corporate Profile
  • C.2 Business Segment Analysis
  • C.3 Financial Analysis
  • C.4 SWOT Analysis

D. Enercon

  • D.1 Corporate Profile
  • D.2 Business Segment Analysis
  • D.3 Financial Analysis
  • D.4 SWOT Analysis

E. Gamesa Corporacion Tecnologica SA

  • E.1 Corporate Profile
  • E.2 Business Segment Analysis
  • E.3 Financial Analysis
  • E.4 SWOT Analysis

F. LM Wind Power

  • F.1 Corporate Profile
  • F.2 Business Segment Analysis
  • F.3 Financial Analysis
  • F.4 SWOT Analysis

G. Nordex SE

  • G.1 Corporate Profile
  • G.2 Business Segment Analysis
  • G.3 Financial Analysis
  • G.4 SWOT Analysis

H. Senvion SE

  • H.1 Corporate Profile
  • H.2 Business Segment Analysis
  • H.3 Financial Analysis
  • H.4 SWOT Analysis

I. Siemens AG

  • I.1 Corporate Profile
  • I.2 Business Segment Analysis
  • I.3 Financial Analysis
  • I.4 SWOT Analysis

J. Suzlon Energy Limited

  • J.1 Corporate Profile
  • J.2 Business Segment Analysis
  • J.3 Financial Analysis
  • J.4 SWOT Analysis

K. Vestas Wind Systems A/S

  • K.1 Corporate Profile
  • K.2 Business Segment Analysis
  • K.3 Financial Analysis
  • K.4 SWOT Analysis

L. CSIC (Chongqing) Haizhuang Windpower Equipment Co., Ltd. (CSIC)

M. Euros GmbH

N. Guodian United Power Technology Co., Ltd.

O. Inox Wind

P. Lianyungang Zhongfu Lianzhong Composites Group Co., Ltd.

Section 5: Conclusion

A. Appendix

B. Glossary of Terms

List of Figures

  • Figure 1: Power Curve for Wind Turbine
  • Figure 2: Energy Produced at Various Wind Speeds at Typical Wind Farm Site
  • Figure 3: Energy Produced at Various Wind Speeds at Typical Site
  • Figure 4: Capacity Factor in % of Rated Power
  • Figure 5: Aerodynamics of Wind Power
  • Figure 6: Components in a Simplified Wind Turbine
  • Figure 7: Airborne Wind Generator
  • Figure 8: Main Components of a Wind Turbine and their Share of the Overall Turbine Cost for a 5 MW Wind Turbine
  • Figure 9: Turbine Diameter Growth with Time
  • Figure 10: Growth in Size of Commercial Wind Turbine Designs
  • Figure 11: Development of the Average Wind Turbine Size Sold in Different Countries (in KW)
  • Figure 12: Increase in Turbine Prices from 2012 to 2014
  • Figure 13: Top 10 Cumulative Capacity as of Dec 2014
  • Figure 14: Top 10 New Installed Capacity Jan-Dec 2014
  • Figure 15: Global Annual Installed Wind Capacity 1997-2014
  • Figure 16: Global Cumulative Installed Wind Capacity 1997-2014
  • Figure 17: Annual Installed Capacity by Region 2006-2014
  • Figure 18: Share of New Wind Power Installations in the EU (in MW), 2014
  • Figure 19: Total Installed Capacity in the European Union (in MW), 2001-2014
  • Figure 20: Electricity Generating Installations in the EU (in GW), 2000-2014
  • Figure 21: Annual Offshore Wind Capacity Installations in Europe in 2014 (in MW)
  • Figure 22: Share of Wind Turbine Manufacturers' at end of 2014 (in MW)
  • Figure 23: Components of a Wind Turbine
  • Figure 24: Global Annual Wind Power Installations (in GW), 2006-2015
  • Figure 25: Global Turbine Market Size (in USD Billion) & Average Turbine Cost (in USD per kW), 2006-2015
  • Figure 26: Average Capacity of a Wind Turbine, Offshore and Onshore Turbines (in MW), 2006-2020
  • Figure 27: Major Players in the Global Turbine Industry & their Market Share (%), 2014
  • Figure 28: Yearly Variation of Market Shares of Major Wine Turbine Suppliers (%), 2007-2014
  • Figure 29: Size of the Wind Turbine Rotor Blade Market (in USD Billion), 2006-2020
  • Figure 30: Yearly Production of Wind Turbine Rotor Blades (in MW), 2006-2014
  • Figure 31: Independent Production Statistics of Wind Turbine Rotor Blades by Manufacturers (in MW), 2007-2014
  • Figure 32: In-house Production Statistics of Wind Turbine Rotor Blades by Manufacturers (in MW), 2007-2014
  • Figure 33: Cost Breakup of Wind Turbine Rotor Blades (%), 2014
  • Figure 34: Price Range of Wind Turbine Rotor Blades (in USD per kW), 2006-2020
  • Figure 35: Major Independent Manufacturers of Wind Turbine Rotor Blades & their Market Share (%), 2014
  • Figure 36: Production Sites of Independent Manufacturers of Wind Turbine Rotor Blades
  • Figure 37: Major In-house Manufacturers of Wind Turbine Rotor Blades & their Market Share (%), 2014
  • Figure 38: Revenues & Profitability of Suzlon Energy Limited (in USD Million), 2010-2014
  • Figure 39: General Layout for a Wind Turbine System
  • Figure 40: An Offshore Wind Farm
  • Figure 41: Overall Wind Farm Costs
  • Figure 42: Total Renewables Cost Envelope vs. Coal, Gas & Nuclear Cost
  • Figure 43: Combustion Emissions from Electricity Generation 2005-2050
  • Figure 44: Low Emission Generation Requirements

List of Tables

  • Table 1: Four Optional Installation Systems for Offshore Wind Power
  • Table 2: Global Installed Wind Power Capacity (MW) by Regions, 2013-2014
  • Table 3: Upcoming Offshore Wind Power Projects in Japan
  • Table 4: Wind Farms and Turbines Connected to the Grid at end of 2014 in Europe
  • Table 5: Global Annual Wind Power Installations (in GW), 2006-2015
  • Table 6: Global Turbine Market Size (in USD Billion) & Average Turbine Cost (in USD per kW), 2006-2015
  • Table 7: Average Capacity of a Wind Turbine, Offshore and Onshore Turbines (in MW), 2006-2020
  • Table 8: Yearly Variation of Market Shares of Major Wine Turbine Suppliers (%), 2007-2014
  • Table 9: Size of the Wind Turbine Rotor Blade Market (in USD Billion), 2006-2020
  • Table 10: Yearly Production of Wind Turbine Rotor Blades (in MW), 2006-2014
  • Table 11: Independent Production Statistics of Wind Turbine Rotor Blades by Manufacturers (in MW), 2007-2014
  • Table 12: In-house Production Statistics of Wind Turbine Rotor Blades by Manufacturers (in MW), 2007-2014
  • Table 13: Price Range of Wind Turbine Rotor Blades (in USD per kW), 2006-2020
  • Table 14: Comparing Wind Turbine Rotor Blade Products of Independent Manufacturers, 2014
  • Table 15: Major Turbines Developed by Enercon
  • Table 16: Key Financials of Suzlon Energy Limited (in USD Million), 2010-2014
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